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import numpy as np
import onnxruntime
from text import text_to_sequence, sequence_to_text
import torch
import gradio as gr
import soundfile as sf
import tempfile
import yaml
import json
import os
from time import perf_counter
import random
from AinaTheme import theme
DEFAULT_SPEAKER_ID = os.environ.get("DEFAULT_SPEAKER_ID", default="quim")
DEFAULT_ACCENT= os.environ.get("DEFAULT_ACCENT", default="balear")
def intersperse(lst, item):
result = [item] * (len(lst) * 2 + 1)
result[1::2] = lst
return result
def process_text(i: int, text: str, device: torch.device, cleaner:str):
print(f"[{i}] - Input text: {text}")
x = torch.tensor(
intersperse(text_to_sequence(text, [cleaner]), 0),
dtype=torch.long,
device=device,
)[None]
x_lengths = torch.tensor([x.shape[-1]], dtype=torch.long, device=device)
x_phones = sequence_to_text(x.squeeze(0).tolist())
print(x_phones)
return x.numpy(), x_lengths.numpy()
# paths
MODEL_PATH_MATCHA_MEL_BAL="matcha_multispeaker_cat_bal_opset_15_10_steps.onnx"
MODEL_PATH_MATCHA_MEL_CAT="matcha_multispeaker_cat_cen_opset_15_10_steps.onnx"
MODEL_PATH_MATCHA_MEL_OCC="matcha_multispeaker_cat_occ_opset_15_10_steps.onnx"
MODEL_PATH_MATCHA_MEL_VAL="matcha_multispeaker_cat_val_opset_15_10_steps.onnx"
MODEL_PATH_VOCOS="mel_spec_22khz_cat.onnx"
CONFIG_PATH="config.yaml"
SPEAKER_ID_DICT="spk_to_id_2.json"
# Load models
sess_options = onnxruntime.SessionOptions()
model_matcha_mel_bal = onnxruntime.InferenceSession(str(MODEL_PATH_MATCHA_MEL_BAL), sess_options=sess_options, providers=["CPUExecutionProvider"])
model_matcha_mel_cat = onnxruntime.InferenceSession(str(MODEL_PATH_MATCHA_MEL_CAT), sess_options=sess_options, providers=["CPUExecutionProvider"])
model_matcha_mel_occ = onnxruntime.InferenceSession(str(MODEL_PATH_MATCHA_MEL_OCC), sess_options=sess_options, providers=["CPUExecutionProvider"])
model_matcha_mel_val = onnxruntime.InferenceSession(str(MODEL_PATH_MATCHA_MEL_VAL), sess_options=sess_options, providers=["CPUExecutionProvider"])
model_vocos = onnxruntime.InferenceSession(str(MODEL_PATH_VOCOS), sess_options=sess_options, providers=["CPUExecutionProvider"])
speaker_id_dict = json.load(open(SPEAKER_ID_DICT))
accents = [e for e in speaker_id_dict.keys()]
models={"balear":model_matcha_mel_bal,
"nord-occidental": model_matcha_mel_occ,
"valencia": model_matcha_mel_val,
"central": model_matcha_mel_cat}
cleaners={"balear": "catalan_balear_cleaners",
"nord-occidental": "catalan_occidental_cleaners",
"valencia": "catalan_valencia_cleaners",
"central": "catalan_cleaners"}
speakers = [sp for sp in speaker_id_dict[DEFAULT_ACCENT].keys()]
def vocos_inference(mel,denoise):
with open(CONFIG_PATH, "r") as f:
config = yaml.safe_load(f)
params = config["feature_extractor"]["init_args"]
sample_rate = params["sample_rate"]
n_fft= params["n_fft"]
hop_length= params["hop_length"]
win_length = n_fft
# ONNX inference
mag, x, y = model_vocos.run(
None,
{
"mels": mel
},
)
# complex spectrogram from vocos output
spectrogram = mag * (x + 1j * y)
window = torch.hann_window(win_length)
if denoise:
# Vocoder bias
mel_rand = torch.zeros_like(torch.tensor(mel))
mag_bias, x_bias, y_bias = model_vocos.run(
None,
{
"mels": mel_rand.float().numpy()
},
)
# complex spectrogram from vocos output
spectrogram_bias = mag_bias * (x_bias + 1j * y_bias)
# Denoising
spec = torch.view_as_real(torch.tensor(spectrogram))
# get magnitude of vocos spectrogram
mag_spec = torch.sqrt(spec.pow(2).sum(-1))
# get magnitude of bias spectrogram
spec_bias = torch.view_as_real(torch.tensor(spectrogram_bias))
mag_spec_bias = torch.sqrt(spec_bias.pow(2).sum(-1))
# substract
strength = 0.0025
mag_spec_denoised = mag_spec - mag_spec_bias * strength
mag_spec_denoised = torch.clamp(mag_spec_denoised, 0.0)
# return to complex spectrogram from magnitude
angle = torch.atan2(spec[..., -1], spec[..., 0] )
spectrogram = torch.complex(mag_spec_denoised * torch.cos(angle), mag_spec_denoised * torch.sin(angle))
# Inverse stft
pad = (win_length - hop_length) // 2
spectrogram = torch.tensor(spectrogram)
B, N, T = spectrogram.shape
print("Spectrogram synthesized shape", spectrogram.shape)
# Inverse FFT
ifft = torch.fft.irfft(spectrogram, n_fft, dim=1, norm="backward")
ifft = ifft * window[None, :, None]
# Overlap and Add
output_size = (T - 1) * hop_length + win_length
y = torch.nn.functional.fold(
ifft, output_size=(1, output_size), kernel_size=(1, win_length), stride=(1, hop_length),
)[:, 0, 0, pad:-pad]
# Window envelope
window_sq = window.square().expand(1, T, -1).transpose(1, 2)
window_envelope = torch.nn.functional.fold(
window_sq, output_size=(1, output_size), kernel_size=(1, win_length), stride=(1, hop_length),
).squeeze()[pad:-pad]
# Normalize
assert (window_envelope > 1e-11).all()
y = y / window_envelope
return y
def tts(text:str, accent:str, spk_name:str, temperature:float, length_scale:float):
denoise=True
spk_id = speaker_id_dict[accent][spk_name]
sid = np.array([int(spk_id)]) if spk_id is not None else None
text_matcha , text_lengths = process_text(0,text,"cpu",cleaner=cleaners[accent])
model_matcha_mel = models[accent]
# MATCHA VOCOS
inputs = {
"x": text_matcha,
"x_lengths": text_lengths,
"scales": np.array([temperature, length_scale], dtype=np.float32),
"spks": sid
}
mel_t0 = perf_counter()
# matcha mel inference
mel, mel_lengths = model_matcha_mel.run(None, inputs)
mel_infer_secs = perf_counter() - mel_t0
print("Matcha Mel inference time", mel_infer_secs)
vocos_t0 = perf_counter()
# vocos inference
wavs_vocos = vocos_inference(mel,denoise)
vocos_infer_secs = perf_counter() - vocos_t0
print("Vocos inference time", vocos_infer_secs)
with tempfile.NamedTemporaryFile(suffix=".wav", delete=False, dir="/home/user/app") as fp_matcha_vocos:
sf.write(fp_matcha_vocos.name, wavs_vocos.squeeze(0), 22050, "PCM_24")
print(f"RTF matcha + vocos { (mel_infer_secs + vocos_infer_secs) / (wavs_vocos.shape[1]/22050) }")
return fp_matcha_vocos.name
## GUI space
title = """
<div style="text-align: center; max-width: 700px; margin: 0 auto;">
<div
style="display: inline-flex; align-items: center; gap: 0.8rem; font-size: 1.75rem;"
> <h1 style="font-weight: 900; margin-bottom: 7px; line-height: normal;">
Natural and efficient TTS in Catalan
</h1> </div>
</div>
"""
description = """
🍵 Matcha-TTS, a new approach to non-autoregressive neural TTS, that uses conditional flow matching (similar to rectified flows) to speed up ODE-based speech synthesis
For vocoders we use [Vocos](https://huggingface.co/BSC-LT/vocos-mel-22khz-cat) trained in a catalan set of ~28 hours.
[Matcha](https://huggingface.co/BSC-LT/matcha-tts-cat-multispeaker) was trained using openslr69 and festcat datasets
"""
with open("about.md", "r", encoding="utf-8") as f:
about = f.read()
article = "Training and demo by The Language Technologies Unit from Barcelona Supercomputing Center."
def rs_change(accent):
rnd_idx = random.randint(0, 1)
return gr.Dropdown(choices=speaker_id_dict[accent], interactive=True,value=list(speaker_id_dict[accent].keys())[rnd_idx])
accent_dropdown = gr.Dropdown(
choices=accents,
label="Accent",
value=DEFAULT_ACCENT,
info=f"Models are trained on 4 accents"
)
speaker_dropdown = gr.Dropdown(
choices=speaker_id_dict[DEFAULT_ACCENT],
label="Speaker id",
value=DEFAULT_SPEAKER_ID,
info=f"Models are trained on 2 speakers. You can prompt the model using one of these speaker ids.",
interactive=True
)
matcha_inference = gr.Interface(
fn=tts,
inputs=[
gr.Textbox(
value="m'ha costat molt desenvolupar una veu, i ara que la tinc no estaré en silenci.",
max_lines=1,
label="Input text",
),
accent_dropdown,
speaker_dropdown,
gr.Slider(
0.1,
0.8,
value=0.2,
step=0.01,
label="Temperature",
info=f"Temperature",
),
gr.Slider(
0.8,
1.1,
value=0.89,
step=0.01,
label="Length scale",
info=f"Controls speech pace, larger values for slower pace and smaller values for faster pace",
),
],
outputs=[gr.Audio(label="Matcha vocos", interactive=False, type="filepath")]
)
about_article = gr.Markdown(about)
demo = gr.Blocks(theme=theme, css="./styles.css")
with demo:
gr.Markdown(title)
gr.Markdown(description)
gr.TabbedInterface([matcha_inference, about_article], ["Demo", "About"])
accent_dropdown.select(fn=rs_change, inputs=accent_dropdown, outputs=speaker_dropdown)
gr.Markdown(article)
demo.queue(max_size=10)
demo.launch(show_api=False, server_name="0.0.0.0", server_port=7860)
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